Issue 17 - Free-Energy Devices

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Abstract Externally charged electrodes of an electrostatic generator induce charges of opposite polarity on segments of a pair of confronting stators by means of electric fields within which a pair of rotors are confined during rotation to vary the charge binding field linkages between confronting rotors and stators by a shielding action of the rotors in a plane perpendicular to the field flux. A high electric potential difference induced between the stators resulting from such rotation of the rotors, is transformed by an output circuit into a reduced DC voltage applied to a load with a correspondingly increase current conducted therethrough. Claims High Efficient Electrostatic energy field power generating system What is claimed is: Hyde William W. (1685 Whitney, Idaho Falls, ID 83402, USA) Appl. No.: 211704 Filed: June 27, 1988 Editorial: Editorial: We We are are publishing publishing here here description description of of Wiliam Wiliam Hyde’s Hyde’s invention invention that that is is very very very useful useful for for any any invetor invetor who who who is is designing designing high high efficient efficient electrostatic electrostatic generators. generators. By By opinion opinion opinion of of experts experts W. W. Hyde Hyde reach reach a a very very very good good results: results: only only 10% 10% of of of the the output output power power power was was necessary necessary to to provide provide work work of of motor motor and and 90% 90% 90% of of output output output power power can can be be be used used for for the the load load of of this this generator. generator. The The lawyer lawyer Ronald Ronald D. D. Cohn Cohn wrote wrote in in his his letter letter of of Nov.18 Nov.18 1991 1991 about about non-exclusive non-exclusive license license deal. deal. The The price price was was mentioned mentioned as as as 5.5 5.5 mil mil USD USD plus plus plus 2 2 USD USD for for for each each device device device (visit (visit KeelyNet KeelyNet for for more more info info about about this this invention). invention). 1. An energy conversion system including a pair of electrodes maintained electrostatically charged at substantially equal potentials of opposite polarity, stator means mounted in operatively spaced relation to said electrodes for inducement therein of charges of opposite polarity through electric fields established by said equal potentials, power driven rotor means continuously disposed within said electric fields for receiving charged induced by said electric fields, means electrically connecting said rotor means to the stator means for equalizing of said induced charges therebetween, field linkage control means for movably shielding the stator means from the electric fields during rotation of the rotor means and output circuit means operatively connected to the stator means for extracting therefrom an operating voltage in response to movement of said shielding of the stator means. 2. The system as defined in claim 1 wherein said stator means includes a pair of axially spaced stator discs respectively linked electrostatically to the electrodes by said eletric fields, the rotor means including a pair of rotor discs respectively disposed axially between the electrodes and the stator discs. 3. The system as defined in claim 2 wherein said field linkage control means comprises angularly spaced segments on the rotor discs having charged faces shielding portions of the stator discs from the electrodes. 4. The system as defined in claim 3 wherein each of the stator discs includes angularly spaced surface portions confronting the angularly spaced rotor segments and dielectric means between said surface portions for confining the induced charges thereto, the surface portions of the stator discs and the charged faces of the rotor segments being unequal in area. 5. An energy conversion system including a pair of electrodes electrostatically charged to substantially equal potentials of opposite 58 New Energy Technologies, Issue #3(18) 2004
polarity, stator means mounted in operatively spaced relation to said electrodes for inducement therein of charges of opposite polarity through electric fields established by said equal potentials, said stator means including a pair of axially spaced stator discs respectively linked to the electrodes by said electric fields, power driven rotor means continuously disposed within said electric fields for receiving induced charges thereon, means electrically connecting said rotor means to the stator means for transfer of said induced charges therebetween, said rotor means including a pair of rotor discs respectively disposed axially between the electrodes and the stator discs and field linkage control means for variably shielding the stator means from the electric fields during rotation of the rotor means, said field linkage control means comprising angularly spaced segments on the rotor discs having charged faces shielding portions of the stator discs from the electrodes, each of the stator discs including angularly spaced surface portions confronting the angularly spaced rotor segments and dielectric means between said surface portions for confining the induced charges thereto, the surface portions of the stator disc having areas twice that of the areas of the charged faces of the rotor segments and output circuit means operatively connected to the stator means for establishing an operating voltage in response to said variation in the shielding of the stator means by the rotor means. 6. The system as defined in claim 5 including a power shaft assembly on which the rotors are mounted for simultaneous rotation, said electrical connecting means being formed by electrically conductive sections of said shaft assembly. 7. The system as defined in claim 6 wherein the charged faces of the rotor segments on one of the rotors is formed by dielectric material within which the induced charges of negative polarity are confined in stable ion form. 8. The system as defined in claim 7 wherein said output circuit means includes a pair of dc voltage terminals, a capacitive network, and current blocking diode means coupling the network to the terminals and to each of the surface portions of the stator discs for New Energy Technologies, Issue #3 (18) 2004 multiplying current conducted between the stator discs while reducing potentials therebetween to a value equal to the operating voltage across the dc voltage terminals. 9. The system as defined in claim 2 wherein each of the stator discs includes angularly spaced surface portions confronting the rotor and dielectric means between said surface portions for confining the induced charges thereto. 10. The system as defined in claim 9 wherein said output circuit means includes a pair of dc voltage terminals, a capacitive network, and current blocking diode means coupling the network to the terminals and to each of the surface portions of the stator discs for multiplying current conducted between the stator discs while reducing potentials therebetween to the operating voltage across the terminals. 11. The system as defined in claim 1 including a power shaft assembly on which the rotors are mounted for simultaneous rotation, said electrical connecting means being formed by electrically conductive sections of said shaft assembly. 12. The system as defined in claim 3 wherein the charged faces of the rotor segments on one of the rotors is formed by dielectric material within which the induced charges of negative polarity are confined in stable ion form. 13. The system as defined in claim 1 wherein said stator means and said rotor means respectively have faces confronting each of the electrodes, and dielectric surface means coating those of the confronting faces on which the charges of negative polarity are induced and maintained in a stable ion form for preventing eddy currents and charge leakage. 14. The system as defined in claim 1 wherein the stator means and the rotor means have faces continuously exposed to said electric fields on which the charges of negative polarity are induced, and stabilizer means for preventing leakage of the induced charges through said faces. 15. The system as defined in claim 14 wherein 59
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Issue 17 - Free-Energy Devices

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